محمد عبدالجواد مهندس فعال جدا
عدد المساهمات : 277 التقييم : 718 تاريخ التسجيل : 06/08/2010 العمر : 36 الدولة : EGYPT العمل : مهندس ميكانيكا انتاج الجامعة : المنوفية
| موضوع: كتاب Mechanics of Sheet Metal Forming - Material Behavior and Deformation Analysis الجمعة 14 يناير 2011, 3:08 pm | |
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أخواني في الله أحضرت لكم كتاب Mechanics of Sheet Metal Forming Material Behavior and Deformation Analysis Edited by Donald P. Koistinen and Neng-ming Wang General Motors Research Laboratories
و المحتوى كما يلي :
CONTENTS Preface . v SESSION I-State of the Art Chairman: W. Johnson, University of Cambridge Sheet Metal Stamping TechnologyNeed for Fundamental Understanding S. P. Keeler, National Steel Corporation 3 Discussion . 17 Experimental Studies of Material Behavior as Related to Sheet Metal Forming K. Yoshida and K. Miyauchi, The Institute of Physical and Chemical Research Discussion . Plasticity Analysis of Sheet Metal Forming P. B. Mellor and A. Parmar, University of Bradford Discussion . SESSION II-Constitutive Relations for Sheet Metal Chairman: E. H. Lee, Stanford University . 79 Plastic Deformation Behavior Under Conditions of Combined Stress Y. Tozawa, Nagoya University. . . . 81 Discussion . 109Vlll CONTENTS Sheet Necking-I. Validity of Plane Stress Assumptions of the Long-Wavelength Approximation J. W. Hutchinson, Harvard University K. W. Neale, Universite de Sherbrooke A. Needleman, Brown University 111 Sheet Necking-II. Time-Independent Behavior J. W. Hutchinson, Harvard University K. W. Neale, Universite de Sherbrooke 127 Discussion . 150 SESSION III-Role of Friction Chairman: J. J. Jonas, McGill University 155 Friction and Lubrication in Sheet Metal Forming W. R. D. Wilson, University of Massachusetts . , 157 Discussion , 174 Drawbead Forces in Sheet Metal Forming H. D. Nine, General Motors Research Laboratories 179 Discussion . 207 SESSION IV-Instability Processes Chairman: S. S. Hecker, Los Alamos Scientific Laboratory 213 Sheet Metal Forming Limits Z. Marciniak, Technical University of Warsaw Discussion . Limits to Ductility Set by Plastic Flow Localization A. Needleman and J. R. Rice, Brown University Discussion . Sheet Necking-III. Strain-Rate Effects J. W. Hutchinson, Harvard University K. W. Neale, Universite de Sherbrooke Discussion Plastic Flow Properties in Relation to Localized Necking in Sheets A. K. Ghosh, Rockwell International . 287 Discussion . 311 SESSION V-Analysis of Deformation in Stamping Operations Chairman: B. Budiansky, Harvard University . 313 Deformation Analysis of Large Sized Panels in the Press Shop H. Ishigaki, Toyota Motor Company . 315 Discussion . 338 Deformation Analysis of Axisymmetric Sheet Metal Forming Processes by the Rigid-Plastic Finite Element Method S. Kobayashi and J. H. Kim, University of California. . 341 Discussion . 363 Elastic-Viscoplastic Analyses of Simple Stretch Forming Problems N.-M. Wang and M. L. Wenner, General Motors Research Laboratories 367 Discussion . 398 Symposium Summary B. Budiansky, Harvard University 403 Participants . 407 Subject Index . 407 PARTICIPANTS Agnew, W. G. General Motors Research Laboratories Warren, Michigan Altan, T. Battelle Laboratories Columbus, Ohio Amann, C. A. General Motors Research Laboratories Warren, Michigan Armen, H. A. Grumman Aerospace Corporation Bethpage, New York Astill, C. J. National Science Foundation Washington, DC Ayres, R. A. General Motors Research Laboratories Warren, Michigan Babcock, S. G. General Motors Manufacturing Staff Warren, Michigan Bartell, B. E. Chevrolet Motor Division, GMC Parma, Ohio Bathe, K.-J. Massachusetts Institute of Technology Cambridge, Massachusetts Baxter, W. J. General Motors Research Laboratories Warren, Michigan Beaman, R. T. General Motors Research Laboratories Warren, Michigan Bowden, R. L. Fisher Body Division, GMC Warren, Michigan Bidwell, J. B. General Motors Research Laboratories Warren, Michigan Bird, J. E. Aluminum Company of America New Kensington, Pennsylvania Bragard, M. A. Centre de Recherches Metallurgiques Liege, Belgium Brazier, W. G. Fisher Body Division, GMC Warren, Michigan Bucher, J. H. Jones & Laughlin Steel Corporation Pittsburgh, Pennsylvania Budiansky, B. Harvard University Cambridge, Massachusetts Butterworth, A. V. General Motors Research Laboratories Warren, Michigan Buzan, L. R. General Motors Research Laboratories Warren, Michigan408 Caddell, R. M. University of Michigan Ann Arbor, Michigan Chang, D. C. General Motors Research Laboratories Warren, Michigan Chatfield, D. A. National Steel Corporation Weirton, West Virginia Chen, K.-K. General Motors Research Laboratories Warren, Michigan Chenea, P. F. General Motors Research Laboratories Warren, Michigan Conrad, H. University of Kentucky Lexington, Kentucky Devenpeck, M. L. U.S. Steel Corporation Monroeville, Pennsylvania Dodd, G. G. General Motors Research Laboratories Warren, Michigan Dubey, R. N. University of Waterloo Waterloo, Canada Duncan, J. L. McMaster University Hamilton, Canada Eary, D. General Motors Institute Flint, Michigan Ebert, L. J. Case Western Reserve University Cleveland, Ohio PARTICIPANTS Elliott, W. A. General Motors Engineering Staff Warren, Michigan Fredericks, D. R. AC Spark Plug Division, GMC Flint, Michigan Frey, W. H. General Motors Research Laboratories Warren, Michigan Furubayashi, T. Nissan Motor Company Ltd. Yokohama, Japan Gardels, K. D. General Motors Research Laboratories Warren, Michigan Gegel, H. L. Air Force Materials Laboratory Dayton, Ohio Ghosh, A. K. Rockwell International Thousand Oaks, California Gibala, R. Case Western Reserve University Cleveland, Ohio Goodwin, G. M. Chrysler Corporation Detroit, Michigan Grube, W. L. General Motors Research Laboratories Warren, Michigan Hall, C. University of Pittsburgh Pittsburgh, Pennsylvania Hall, D. A. Chevrolet Motor Division, GMC Warren, MichiganPARTICIPANTS Hart, D. E. General Motors Research Laboratories Warren, Michigan Havner, K. North Carolina State University Raleigh, North Carolina Hays, D. F. General Motors Research Laboratories Warren, Michigan Hecker, S. S. Los Alamos Scientific Laboratory Los Alamos, New Mexico Heimbuch, R. A. General Motors Manufacturing Staff Warren, Michigan Henry, A. K. Fisher Body Division, GMC Warren, Michigan Hiam, J. R. Dominion foundries and Steel Ltd. Hamilton, Canada Hilsen, R. R. Inland Steel Company East Chicago, Indiana Hockett, J. E. Los Alamos Scientific Laboratory Los Alamos, New Mexico Hodge, P. G., Jr. University of Minnesota Minneapolis, Minnesota Hollyer, R. N. General Motors Research Laboratories Warren, Michigan Holzwarth, J. C. General Motors Research Laboratories Warren, Michigan Hook, R. E. Armco Steel Corporation Middletown, Ohio Hosford, W. F. University of Michigan Ann Arbor, Michigan Hunter, J. E. 409 General Motors Research Laboratories Warren, Michigan Hutchinson, J. W. Harvard University Cambridge, Massachusetts Ishigaki, H. Toyota Motor Company Toyota, Japan Jalinier, J. M. Universite de Metz Metz, France Jamerson, F. E. General Motors Research Laboratories Warren, Michigan James, K. F. General Motors Manufacturing Staff Warren, Michigan Johnson, W. University of Cambridge Cambridge, England Jonas, J. J. McGill University Montreal, Canada Justusson, J. W. General Motors Research Laboratories Warren, Michigan Kaftanoglu, B. The Middle East Technical University Ankara, Turkey410 Kalpakjian, S. Illinois Institute of Technology Chicago, Illinois Kamal, M. M. General Motors Research Laboratories Warren, Michigan Kasper, A. S. Chrysler Corporation Detroit, Michigan Keeler, S. P. National Steel Company Ecorse, Michigan Key, S. W. Sandia Laboratories Albuquerque, New Mexico Kobayashi, S. University of California Berkeley, California Kocks, U. F. Argonne National Laboratory Argonne, Illinois Koistinen, D. P. General Motors Research Laboratories Warren, Michigan Laukonis, J. V. General Motors Research Laboratories Warren, Michigan Lee, D. General Electric Company Schenectady, New York Lee, E. H. Stanford University Stanford, California LeRoy, G. McMaster University Hamilton, Canada Levy, B. S. Inland Steel Company East Chicago, Indiana Lindholm, U. S. PARTICIPANTS Southwest Research Institute San Antonio, Texas Litzke, H. Fried. Krupp Huttenwerke AG Bochum, West Germany Magee, C. L. Ford Motor Company Dearborn, Michigan Mancewicz, T. A. General Motors Manufacturing Staff Warren, Michigan Marciniak, Z. Technical University of Warsaw Warsaw, Poland Mattavi, J. N. General Motors Research Laboratories Warren, Michigan McClintock, R. General Motors Research Laboratories Warren, Michigan McCullough, D. G. Pontiac Motor Division, GMC Pontiac, Michigan McDonald, G. C. General Motors Research Laboratories Warren, Michigan McDonald, R. J. General Motors Research Laboratories Warren, Michigan McLaughlin, B. D. Alean International Ltd. Kingston, CanadaPARTICIPANTS McMillan, M. L. General Motors Research Laboratories Warren, Michigan Mellor, P. B. University of Bradford Bradford, England Miller, E. J. General Motors Research Laboratories Warren, Michigan Miyauchi, K. The Institute of Physical and Chemical Research, Tokyo, Japan Morris, L. Alcan International Ltd. Kingston, Canada Muench, N. L. General Motors Research Laboratories Warren, Michigan Neale, K. W. Universite de Sherbrooke Sherbrooke, Canada Needleman, A. Brown University Providence, Rhode Island Neimeier, B. A. Reynolds Metals Company Richmond, Virginia Nemat-Nasser, S. Northwestern University Evanston, Illinois Ni, C.-M. General Motors Research Laboratories Warren, Michigan Nimmer, R. P. General Electric Company Schenectady, New York 411 Nine, H. D. General Motors Research Laboratories Warren, Michigan Oh, H. L. General Motors Research Laboratories Warren, Michigan Rashid, M. S. General Motors Research Laboratories Warren, Michigan Rasmussen, G. K. AC Spark Plug Division, GMC Flint, Michigan Rhodes, C. J. GMC Truck & Coach Division Pontiac, Michigan Rice, J. R. Brown University Providence, Rhode Island Robinson, G. H. General Motors Research Laboratories Warren, Michigan Rogers, H. C. Drexel University Philadelphia, Pennsylvania Sajewski, V. F. Fisher Body Division, GMC Warren, Michigan Sang, H. Alcan International Ltd. Kingston, Canada Shabaik, A. University of California Los Angeles, California Smith, E. J. National Steel Corporation Weirton, West Virginia412 Smith, G. W. General Motors Research Laboratories Warren, Michigan Sorensen, E. P. General Motors Research Laboratories Warren, Michigan Stevenson, R. General Motors Research Laboratories Warren, Michigan Stine, P. A. General Electric Company Louisville, Kentucky Tanaka, T. Nippon Kokan K.K. New York City, New York Tang, S. C. Ford Motor Company Dearborn, Michigan Taylor, B. General Motors Manufacturing Staff Warren, Michigan Thomas, J. F., Jr. Wright State University Dayton, Ohio Tozawa, Y. Nagoya University Nagoya, Japan Tracy, J. C. General Motors Research Laboratories Warren, Michigan PARTICIPANTS Vail, C. F. General Motors Engineering Staff Warren, Michigan VanderVeen, P. Bethlehem Steel Corporation Bethlehem, Pennsylvania Vigor, C. W. General Motors Research Laboratories Warren, Michigan Wang, N.-M. General Motors Research Laboratories Warren, Michigan Webbere, F. J. General Motors Research Laboratories Warren, Michigan Weber, B. C. Fisher Body Division, GMC Warren, Michigan Wenner, M. L. General Motors Research Laboratories Warren, Michigan Wilson, W. R. D. University of Massachusetts Amherst, Massachusetts Woo, D. M. University of Sheffield Sheffield, England Zimmerer, R. Cadillac Motor Car Division, GMC Detroit, Michigan413 SUBJECT INDEX Anisotropy - normal (or orthotropic), 65, 344, 371. - planar, 56, 62, 86, 101. - prestrained sheets, 36. Artisan system, 7. Bauschinger effect, 103. Bending, 82. Biaxial compression test, 93. Biaxial tension - Hill's yield criterion, 67. - strain hardening, 30, 65, 66, 69, 301. - Yoshida's X-value, 29, 67. Bifurcation, see Strain localization. Circle grid analysis, 34, 316. Coefficient of friction, 170, 195, 354, 371. Combined stretch-draw forming, 26. Complex deformation paths, 325. Constitutive relations - deformation theory, 130, 270. - dilatant plasticity, 242. - elastic-viscoplastic theory, 371. - flow theory, 129, 270. - porous solids, 244. - pressure sensitive yielding, 242. - thermally activated dislocation model, 300. - vertex model, 131, 240. Critical hardening rate, see Strain localization. Critical surface roughness, see Forming limits. Deep drawing - anisotropy, 56. - elliptical shells, 43. - flange wrinkling, 43, 59. - high pressure fluid, 58. - limiting drawing ratio, 28, 55. - lubrication, 168. - strain distribution, 62, 360. - strain hardening, 57. Deformation analysis system - characteristics, 10. - economic impact, 15. Deformation increment - effect of initial imperfection, 248. - onset of bifurcation, 250. Deformation theory, see Constitutive relations. Drawbead forces - cyclic strain, 189. - deformation, 183. - friction, 194. - strain rate effect, 191. Ductility ratio, 253. Excessive hardening phenomenon, see Yield surface. Finite element method - deep drawing, 357. - elastic-viscoplastic formulation, 391. - hemispherical punch stretching, 350, 384. - hydrostatic bulging, 347.414 - in-plane, plane-strain deformation, 124. - plane strain punch stretching, 377. - rigid-plastic formulation, 344. Flat-bottomed punches - size effect on strain distribution, 32. Flow theory, see Constitutive relations. Forming complex shapes - eccentric forces, 31. Forming limit diagram, see Forming limits. Forming limits (also see Strain localization) - change of strain path, 36, 325. - critical surface roughness, 318, 321. - defect simulation, 309. - effect of prestrain, 36, 325. - fracture limit, 231, 295. - Marciniak-Kuczynski model, 294. - material imperfections, 307. - strain rate effect, 299. Fracture - material instability, 230, 295. - void growth, 256, 263. Friction coefficient - in drawbeads, 196. Friction stress - characterization, 170. - friction factor, 171. - lubricant shear, 158. - regime transition, 171. Galling - drawbeads, 200. Hemispherical punch stretching - forming limits, 63. - strain distribution, 355, 384. Hill's yield criterion - anisotropic materials, 67. - application to prerolled sheet, 8p. Hydraulic bUlging - anisotropic sheets, 86. - balanced biaxial stress-strain curve, 29,64,89. - finite element analysis, 347. - rigid-plastic and elastoplastic solutions, 62. - strain distribution, 349. - Yoshida's X-value, 29. SUBJECT INDEX In-plane forming limits - defect simulation, 309. In-plane plane-strain analysis - criterion for strain localization, 125. - growth rate of thickness nonuniformity, 114. - long wavelength approximation, 116, 136. - plane stress assumptions, 112. In-plane stretching - Marciniak-Kuczynski analysis, 63, 112. - strain localization, 293. Limit strain, see Forming limits. Limiting cup depth - combined stretch-draw, 26. - punch stretching, 24, 387. - Yoshida's X-value, 29. Limiting drawing ratio, see Deep drawing. Lubrication - boundary films, 165, 167. - film thickness, 158. - Reynolds equation, 158. surface roughness effects, 164. Lubrication regimes - boundary, 166. - deep drawing, 168. - ironing, 169. - mixed, 165. - thick film, 158. - thin film, 164. Marciniak-Kuczynski model, 63, 136, 270, 29( Material imperfections - effect on strain localization, 307. - work hardening, 306. Material instability - bifurca~ion analysis, 250. Necking, see Strain localization. Normal anisotropy, 344. Numerical analysis (see Finite element metho( Overstress model, 300.SUBJECT INDEX Planar anisotropy - effect of strain state, 86. Plane-strain stretching - finite element method, 376. - fracture, 218. - instability development, 217. - quasi-stable deformation, 221. - strain localization, 125, 142, 273, 379. Plane strain test, 89. Predictive capability - potential uses, 13. Press performance - assessment system, 45. Punch stretching - deformation analysis, 350. - effect of strain hardening, 23. - forming geometry and friction, 23, 293. - forming limit diagram, 63. Punch velocity - in viscoplastic finite element method, 376. Quasi-stable deformation - factors affecting, 221. Schuler Hydro-mechanical process, 58. Shear band formation - bifurcation, 132, 247. - Hill's formula, 134. - plane strain stretching, 218. Shrink flanging, 28. Solid lubricants, 163. Stability loss - in stretching, 217. Strain composition diagram, 328. - die geometry, 329. - wrinkling, 331. Strain distribution, (also see Hemispherical punch stretching and Hydraulic bulging). - large panels, 328. - plane strain punch stretching, 378. - square and elliptical shells, 32. Strain hardening - cyclic strain, 194. - variation with strain states, 30. Strain localization, (also see In-plane planestrain analysis and plane-strain 415 stretching). - biaxial stretching, 145, 259, 277. - bifurcation analysis, 259. - critical hardening rate, 251. - deformation theory, 140, 272. - flow theory, 138, 272. - forming limits, 147. - geometric non-uniformity, 136. - governing process, 215, 220. - imperfection, 146, 222. - Marciniak-Kuczynski analysis, 136, 259, 270, 290, 294. - material imperfections, 148, 247. - normal anisotropy, 142, 273, 379. - strain hardening, 148, 223. - strain rate effect, 225, 269. - stress states, 223. - tool forces, 227. - void growth, 231, 260. - yield vertex, 259. Strain-rate effects, 189, 191, 225, 270, 273, 298, 307, 371, 378. Strain states - change of deformation path, 317. Strength differential effect - in tension and compression, 242. Stretch forming - instability modes, 217. - instability strain, 62, 64. Through thickness compression test, 89. Variational principle, 342, 391. Viscoplasticity - overstress model, 300, 372. - power law model, 270, 298, 373. Void growth - critical conditions, 256. - experimental observations, 263. - nucleation, 245. Work-hardening, see Strain hardening. Wrinkling, 41, 46, 331.416 Yield surface - aluminum killed (or stabilized) steel, 99. - annealed aluminum, 99. - annealed steel, 94. - brass, 94. - excessive hardening phenomenon, 104. - Hill's criterion for anisotropic sheets, 56, 67, 86, 88, 302, 344, 371. - prestrain direction, 100. - prestrained sheets, 99, 101, 102, 107. - Tresca criterion, 92. - vertex model, 238. - von Mises criterion, 92. Yield vertex - bifurcation, 291. - effect on critical hardening rate, 251. Yoshida's X-value, 29, 67. SUBJECT INDEX
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